JP2006243705A - Plasma display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plasma display system which can prevent damage to the elements. <P>SOLUTION: This is a plasma display device which has a plasma display panel; a chassis base; a circuit board to drive the panel; a signal transmission member which connects the panel and the circuit board to transmit electric signals to them and mounted with the elements; a mounting section with a signal transmission member arranged on the edge of the chassis base and mounted with the elements provided on the signal transmission section; a reinforcement having bosses disposed in the mounting section; and a cover provided in the back of the signal transmission section to cover the mounted elements and connected with the bosses of the reinforcement and the connection means. With the cover installed to prevent the excessive pressure locally applied to the elements for signal transmission, damage to the elements is prevented. Moreover, the manufacturing costs can be prevented from increasing with the expensive elements damaged easily. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved structure so that damage to elements mounted on a signal transmission member is prevented.

  The plasma display device is a flat panel display that displays images using the gas discharge phenomenon. It has various display capabilities such as display capacity, brightness, contrast, afterimage, and viewing angle, and is thin and capable of displaying large screens. It is in the spotlight as a next-generation flat panel display that can replace the cathode ray tube.

  In general, the plasma display apparatus includes a plasma display panel (PDP), a chassis base disposed substantially in parallel with the PDP, a circuit board that is mounted behind the chassis base and drives the PDP, The PDP, the chassis base, and a case for accommodating the circuit board are included.

  Recently, in a plasma display device, a PDP and a circuit board are electrically connected by a signal transmission member such as TCP (Tape Carrier Package) formed as a package by mounting a large number of elements on a tape-like wiring portion. ing. Such TCP is flexible because it is composed of a tape-like wiring part, and a large number of elements are mounted. Therefore, the circuit board can be made small and widely used.

  On the other hand, behind the TCP as described above, a cover member that covers a portion where the element is mounted is fastened to the chassis base, thereby protecting the element and transferring heat generated from the element. It is common to dissipate heat.

  By the way, as described above, after the cover member and the chassis base are fastened, the surface facing the element of the cover member and the surface on which the element of the chassis base is placed are substantially parallel due to various factors. In some cases, it may tilt. In such a case, there may be a problem that damage such as cracks is induced in the element by applying excessive pressure locally on the element positioned between the cover member and the chassis base.

  The present invention is for solving the above-described problems, and an object of the present invention is to install a cover member so that excessive pressure is not locally applied to an element provided in the signal transmission member. Accordingly, it is an object of the present invention to provide a plasma display apparatus in which element damage is prevented.

  Another object of the present invention is to provide a plasma display device that can solve the problems that have been the cause of increasing the manufacturing cost in the manufacturing process by easily damaging expensive elements.

In order to achieve the above object, a plasma display apparatus according to the present invention includes a PDP,
A chassis base disposed behind the PDP, a circuit board disposed behind the chassis base and driving the PDP, and connecting the PDP and the circuit board and transmitting an electrical signal therebetween. And one or more signal transmission members on which at least one element is installed, and a placement on which the elements installed on the signal transmission member are placed while the signal transmission member is arranged at an edge of the chassis base And a reinforcing member provided with the boss part arranged in the mounting part, and arranged behind the signal transmission member, covering the elements installed on them, and coupled with the boss part of the reinforcing member by fastening means Cover member.

  Here, it is more desirable that the reinforcing member is formed by bending the end portion of the chassis base because the weight of the chassis base can be reduced.

  Here, the boss part may be press-fitted into the mounting part and coupled thereto, or may be integrally formed with the mounting part.

  Here, it is preferable that the reinforcing member is provided so as to further include a base portion coupled to the chassis base and a connecting portion that connects the base portion and the mounting portion.

  Here, a first heat conduction medium is interposed between the element of the signal transmission member and the reinforcing member, and a second heat conduction medium is interposed between the element of the signal transmission member and the cover member. It is desirable to intervene.

  Here, it is preferable that the second heat conducting medium is formed of a material having a buffering property.

Here, the boss portion protrudes from the main body by a predetermined length, and the protruding height is set to be small enough that the cover member is in close contact with the second heat conducting medium covering the element. desirable.

  According to the present invention, even when the reinforcing member is abnormally bent and coupled to the chassis base, the reinforcing member and the cover member are held substantially in parallel, and the reinforcing member and the cover member are The element located at is subjected to a uniform pressure.

  Therefore, when an excessive pressure is applied locally as in the conventional case, damage such as a crack is prevented from being induced in the element, and an effect of ensuring the operation reliability of the element can be obtained.

  In addition, according to the present invention, it is possible to solve the problem that has been one cause of an increase in manufacturing cost due to damage to expensive elements during the manufacturing process.

  Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is an exploded perspective view of a plasma display apparatus according to an embodiment of the present invention, and FIG. 2 is an enlarged view of a lower left portion of the plasma display apparatus shown in FIG. FIG. 3 is a cross-sectional view showing a cross section cut in the vertical direction from a position where the bolt is fastened in a state where the plasma display device of FIG. 2 is coupled.

  Referring to the drawings, a plasma display apparatus 100 according to an exemplary embodiment of the present invention includes a PDP 110 that implements an image, a plurality of circuit boards 130 on which circuits for driving the PDP 110 are disposed, the PDP 110 and the PDP 110. A chassis base 120 that supports the circuit board 130 is provided.

  As the PDP 110, any one of various types of PDPs can be used. As an example, an AC type PDP having a surface discharge type three-electrode structure can be used. The AC type PDP having the surface discharge type three electrode structure includes a front panel 110a and a back panel 110b coupled to face the front panel 110a. The front panel 110a is formed so as to cover a front substrate disposed in front, a sustain electrode pair formed as a pair of an X electrode and a Y electrode on the back surface of the front substrate, and the sustain electrode pair. The front dielectric layer and a protective film formed on the back surface of the front dielectric layer may be provided. The X electrode and the Y electrode constituting the sustain electrode pair are separated from each other by a discharge gap, and function as a common electrode and a scan electrode, respectively. The X electrode includes an X transparent electrode and an X bus electrode formed so as to be connected thereto. Similarly, the Y electrode is formed so as to be connected to the Y transparent electrode. Y bus electrodes may be provided. The rear panel 110b coupled to the front panel 110a includes a rear substrate disposed behind, an address electrode formed on a front surface of the rear substrate and extending in a direction crossing the sustain electrode pair, and the address A back dielectric layer formed so as to cover the electrodes, a barrier rib formed on the front surface of the back dielectric layer to limit the discharge space, and a phosphor layer disposed in the discharge space may be provided. Here, the discharge space corresponds to a region where the sustain electrode pair and the address electrode intersect with each other, and the discharge space is filled with a discharge gas. The chassis base 120 is formed of a material such as aluminum, and supports the PDP 110 while transferring heat generated from the PDP 110 to the outside. The chassis base 120 may be provided with a bending portion 121 that is bent rearward at an edge so as to prevent bending deformation or warping deformation.

  As shown in FIG. 3, the chassis base 120 is coupled to the PDP 110 by an adhesive member 141 such as a double-sided tape, and a heat dissipation member 142 is interposed between the chassis base 120 and the PDP 110. Accordingly, the heat generated from the PDP 110 is released to the outside by the heat radiating member 142.

  The circuit board 130 is electrically connected to the PDP 110 by a signal transmission member to transmit a signal. As the signal transmission member, at least one of FPC (Flexible Printed Cable), TCP, COF (Chip On Film), and the like may be selected and used.

  According to the present embodiment, the FPC 131 is employed as a signal transmission member disposed on the left and right sides of the chassis base 120 and connected to the circuit board 130, and is disposed on the lower side of the chassis base 120. As the signal transmission member connected to the substrate 130, TCP 132 formed by mounting at least one element 134 on the tape-like wiring portion 133 and forming each as a package is employed.

  The TCPs 132 are spaced apart from each other, and their wiring parts 133 pass through the lower edge of the chassis base 120, and one end of each of them is an address electrode having an addressing function provided in the PDP 110 (see FIG. The other end of each of the circuit boards 130 is connected to a driving circuit board 130a that drives an address electrode. Since at least two elements 134 such as an address driving IC are mounted on the wiring part 133 of the TCP 132, the elements 134 are disposed adjacent to the rear edge of the chassis base 120. ing.

  The element 134 arranged in this way is supported by the reinforcing member 150. For this reason, the reinforcing member 150 has the TCP 132 arranged on the back surface thereof, and the element base 134 and the TCP can be accommodated. 132. The reinforcing member 150 is made of a metal material and is coupled to the rear surface of the chassis base 120 to prevent the chassis base 120 from being bent or warped, and to increase the area of heat radiated from the chassis base 120. However, the reinforcing member 150 ′ may be further installed adjacent to the upper edge of the rear surface of the chassis base 120 as shown in FIG.

  The reinforcing member 150 disposed adjacent to the lower edge of the rear surface of the chassis base 120 may be provided in various structures. As illustrated in FIGS. 1 to 3, a thin plate is folded. It can be provided in the form. In particular, the reinforcing member 150 includes a placement portion 152 on which the element 134 is placed correspondingly and arranged substantially parallel to the chassis base 120 and a member such as a screw 155 on the chassis base 120. The base part 153 couple | bonded and the connection part 154 respectively connected with the mounting part 152 and the base part 153 mentioned above can be provided.

  As described above, the placement unit 152 is spaced apart from the chassis base 120 to form a predetermined space with the chassis base 120, thereby preventing the element from the element 134 disposed in the placement unit 152. Heat can be released smoothly. And the end part of the above-mentioned mounting part 152 can be supported by arrange | positioning the said mounting part 152 so that an edge part may face | match with the edge part of the bending part 121 of the chassis base 120. FIG.

  On the other hand, the drawing shows that the reinforcing member is installed on the chassis base as a separate member, and the embodiment of the present invention will be described based on the case where the reinforcing member is provided from the separate member. The range is not limited to the case where the reinforcing member is formed from a separate member. That is, it goes without saying that the present invention is also applicable to the case where a reinforcing member formed integrally with the chassis base by bending the end portion of the chassis base is used.

  On the other hand, as shown in FIG. 3, the first and second heat transfer media 161 and 162 may be disposed on both sides of the element 134 mounted on the mounting unit 152 as described above. That is, the first heat conducting medium 161 is disposed between the portion where the element 134 of the wiring portion 133 is mounted and the mounting portion 152, but the portion where the element 134 of the wiring portion 133 is mounted is In general, the first heat conducting medium 161 is preferably a liquid or gel type heat conducting medium, for example, grease. The viscosity of the first heat conducting medium 161 is generally used with the plasma display apparatus 100 standing upright. Therefore, the first heat conducting medium 161 and the portion where the element 134 of the wiring part 133 is mounted by gravity. It is desirable that it does not flow out from between the mounting portion 152. A second heat conducting medium 162 is disposed on the opposite side of the TCP 132 on which the first heat conducting medium 161 is disposed. That is, since the second heat conducting medium 162 is disposed on the protruding surface of the element 134, the element 134 and the second heat conducting medium 162 are in direct contact with each other as described above. The second heat conducting medium 162 is preferably made of a buffering material so as to absorb an impact that can be applied to the element 134.

  The cover member 170 is disposed so as to cover the second heat conductive medium 162 in a state where the second heat conductive medium 162 is disposed on the element 134. The cover member 170 may be in the form of a plate that is bent at an angle close to a right angle so that the TCP 132 disposed over the lower edge of the chassis base 120 can be entirely covered and protected.

  According to one aspect of the present invention, the cover member 170 is coupled and fixed to the reinforcing member 150 by fastening means. For this purpose, the mounting portion 152 of the reinforcing member 150 includes a boss portion 180 that is disposed between the TCPs 132 and that protrudes toward the cover member 170 at a predetermined height. The boss portion 180 is formed with a hollow from an end portion, and a screw groove 180a is formed in the hollow so that the screw 171 can be screwed together. The screw 171 passes through the cover member 170 and the fastening holes 170a and 162a formed in the second heat conducting medium 162 so as to correspond to the boss portion 180 from the rear side of the cover member 170, respectively. The reinforcing member 150 and the cover member 170 are fixed by being screwed together.

  In the structure in which the boss portion 180 and the cover member 170 are combined as described above, the height at which the boss portion 180 protrudes is in close contact with the second heat conducting medium 162 covering the element 134. It is desirable to set it to the extent. On the other hand, when the cover member 170 is manufactured from a metal material together with the reinforcing member 150, the cover member 170 can be grounded, so that it absorbs electromagnetic interference noise (EMI) generated from the element 134 included in the TCP 132. Can serve as a shield.

  As described above, the cover member 170 is screwed into the boss portion 180 provided in the reinforcing member 150 on which the element 134 of the TCP 132 is placed. On the other hand, the cover member 170 has a structure that is not coupled to the chassis base 120. Accordingly, the reinforcing member 150 and the cover member 170 can be held substantially in parallel.

  FIG. 4 is a cross-sectional view illustrating a case where the reinforcing member is bent and coupled to the chassis base.

  As shown in FIG. 4, even when the reinforcing member 150 is abnormally bent and joined to the chassis base 120, the cover member 170 is not joined to the chassis base 120. And the cover member 170 can be held substantially parallel. As a result, the element 134 positioned between the reinforcing member 150 and the cover member 170 receives a uniform pressure. Therefore, when an excessive pressure is applied locally as in the prior art, the element is damaged like a crack. It is prevented from being triggered. Therefore, according to the present invention, the operational reliability of the element 134 can be ensured.

  Meanwhile, as shown in detail in FIG. 3, the boss portion 180 may be manufactured as a separate member from the reinforcing member 150 and then coupled to the reinforcing member 150. More specifically, the boss portion 180 is formed to have a hollow main body portion 181 having a thread groove 180a formed on the inner surface thereof and a predetermined length in the radial direction at an end portion of the main body portion 181. Extension 182 may be provided. The body portion 181 of the boss portion 180 is inserted into the through hole 152a formed in the mounting portion 152 of the reinforcing member 150 so as to correspond to the main body portion 181. The extension portion 182 of the boss portion 180 is inserted into the through hole 152a. The boss portion 180 can be coupled to the placement portion 152 of the reinforcing member 150 by being press-fitted around the periphery. However, since the boss portion can be formed integrally with the reinforcing member, the boss portion is not necessarily limited to the above.

  Although the present invention has been described with reference to one embodiment illustrated in the accompanying drawings, it is merely exemplary, and those skilled in the art will appreciate that various modifications and equivalents may be made therefrom. It will be appreciated that embodiments are possible. Accordingly, the true scope of protection of the present invention is determined solely by the claims.

    The present invention can be effectively applied in the technical field related to plasma display devices.

1 is an exploded perspective view illustrating a plasma display apparatus according to an embodiment of the present invention. FIG. 2 is a partial perspective view illustrating a state in which a reinforcing member and a cover member are coupled to each other with a signal transmission member illustrated in FIG. 1 interposed therebetween. FIG. 3 is a partial cross-sectional view taken along line III-III in FIG. 1. In FIG. 3, it is the fragmentary sectional view showing the state in which the reinforcement member was couple | bonded abnormally with respect to the chassis base.

Explanation of symbols

110 PDP
110a Front panel 110b Rear panel 120 Chassis base 130 Circuit board 132 TCP
133 Wiring part 134 Element 150 Reinforcement member 152 Placement part 153 Base part 154 Connection part 161 First heat conduction medium 162 Second heat conduction medium 162a, 170a Fastening hole 170 Cover member 171 Screw 180 Boss part 180a Screw groove

Claims (9)

A plasma display panel;
A chassis base disposed behind the plasma display panel;
A circuit board disposed behind the chassis base and driving the plasma display panel;
Connecting the plasma display panel and the circuit board, transmitting an electrical signal between them, and one or more signal transmission members provided with at least one element;
A reinforcing member comprising a placement portion on which an element placed on the signal transmission member is placed, and a boss portion placed on the placement portion, while the signal transmission member is disposed at an edge of the chassis base. ,
A plasma display apparatus, comprising: a cover member disposed behind the signal transmission member, covering an element disposed on the signal transmission member, and coupled to a boss portion of the reinforcing member and a fastening means.   The plasma display apparatus of claim 1, wherein the reinforcing member is formed by bending an end of the chassis base.   The plasma display apparatus as claimed in claim 1, wherein the boss part is press-fitted and separated from the plurality of mounting parts at a predetermined interval.   The plasma display apparatus according to claim 1, wherein the boss part is formed integrally with the mounting part.   The plasma display apparatus of claim 1, wherein the reinforcing member further includes a base part coupled to the chassis base and a connecting part for connecting the base part and the mounting part.   The plasma display apparatus according to claim 1, wherein a first heat conducting medium is interposed between the element of the signal transmission member and the reinforcing member.   The plasma display apparatus according to claim 1, wherein a second heat transfer medium is interposed between the element of the signal transmission member and the cover member.   The plasma display apparatus as claimed in claim 7, wherein the second heat conducting medium is formed of a buffer material.   The boss portion protrudes from the main body by a predetermined length, and the protruded height is set to be small enough that the cover member is in close contact with the second heat conducting medium covering the element. The plasma display device according to claim 8.

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